Add to ORKGLocalized increase of the magnetic field observed by routine methods on the photosphere result in the growth of a number of active processes in the solar atmosphere and the heliosphere. These localized regions of increased magnetic field are called active regions (AR). The main processes of transfer, accumulation and release of energy in an AR is, however, out of scope of photospheric observations being essentially a 3D-process and happening either under photosphere or up in the corona. So, to investigate these plasma structures and processes we are bound to use either extrapolation of optical observational methods or observations in EUV, X-rays and radio. In this review, we stress and illustrate the input to the problem gained from radio a...
The microwave regions with low brightness temperature are found to overlap the regions of the depres...
Unusual spectra with a significant decrease in circularly polarised emissions (Stokes parameter V ) ...
We study the extremely complex active region (AR) NOAA 10314, that was observed from March 13–19, 20...
Radio observations of some active regions (ARs) obtained with the Nobeyama radiolieliograph at lambd...
Abstract. Solar active region coronae are known for strong magnetic fields permeating tenuous plasma...
Solar active regions are the source of the most violent events observed on the Sun, some of which ha...
The interpretation of the nature of solar cycles needs its Hnalysis at all levels of the solar atmos...
In recent decades our understanding of solar active regions (ARs) has improved substantially due to ...
We analyzed the structure of the magnetic field in active regions at coronal altitudes, determined u...
Three dimensional structure of an active region is determined from observations with the Very Large ...
International audienceThis paper will review the input of 65 years of radio observations to our unde...
Solar magnetism is responsible for the several active phenomena that occur in the solar atmosphere. ...
The sudden release of magnetic energy on the Sun drives powerful solar flares and coronal mass eject...
I present results of an international joint observing campaign, which was carried out in September 1...
Aims. We construct a 3D solar atmospheric model to reproduce active region brightness temperature of...
The microwave regions with low brightness temperature are found to overlap the regions of the depres...
Unusual spectra with a significant decrease in circularly polarised emissions (Stokes parameter V ) ...
We study the extremely complex active region (AR) NOAA 10314, that was observed from March 13–19, 20...
Radio observations of some active regions (ARs) obtained with the Nobeyama radiolieliograph at lambd...
Abstract. Solar active region coronae are known for strong magnetic fields permeating tenuous plasma...
Solar active regions are the source of the most violent events observed on the Sun, some of which ha...
The interpretation of the nature of solar cycles needs its Hnalysis at all levels of the solar atmos...
In recent decades our understanding of solar active regions (ARs) has improved substantially due to ...
We analyzed the structure of the magnetic field in active regions at coronal altitudes, determined u...
Three dimensional structure of an active region is determined from observations with the Very Large ...
International audienceThis paper will review the input of 65 years of radio observations to our unde...
Solar magnetism is responsible for the several active phenomena that occur in the solar atmosphere. ...
The sudden release of magnetic energy on the Sun drives powerful solar flares and coronal mass eject...
I present results of an international joint observing campaign, which was carried out in September 1...
Aims. We construct a 3D solar atmospheric model to reproduce active region brightness temperature of...
The microwave regions with low brightness temperature are found to overlap the regions of the depres...
Unusual spectra with a significant decrease in circularly polarised emissions (Stokes parameter V ) ...
We study the extremely complex active region (AR) NOAA 10314, that was observed from March 13–19, 20...